Magnon-magnon entanglement generation between two remote interaction-free optomagnonic systems via optical Bell-state measurement

Golkar, S; Ghasemian, E; Setodeh Kheirabady, M; Tavassoly, M K

doi:10.1088/1402-4896/ad0d8d

Cited by 4 publications

(2 citation statements)

References 98 publications

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“…to form various systems such as cavity optomagnonics, cavity magnomechanics, etc. [30] For example, some groups have used optomagnonic systems to prepare entanglement, [32] while others have specifically explored the related applications of magnonphonon coupling. [33] Considering that the advantages of the cavity magnonics system and the cavity optomechanical system can be combined, a group has designed a hybrid optomechanicalferromagnet system to study magnon and photon blockade.…”

Section: Introductionmentioning

confidence: 99%

Preparation of Distant Quantum Entanglement and One‐way Quantum Steering in Hybrid Cavity‐Magnonics‐and‐Cavity‐Optomechanical Systems

Wan,

Lin,

Lin

et al. 2024

Annalen der Physik

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A hybrid system that combines cavity magnonics and cavity optomechanics is proposed to facilitate the generation of long‐distance entanglement and enable one‐way steering between magnons and phonons. This configuration involves two directly coupled cavities, with one interacting with magnons and the other coupling with a mechanical oscillator (i.e., phonons). By driving the microwave cavity with a weak squeezed vacuum field generated by a flux‐driven Josephson parametric amplifier, entanglement and one‐way steering can be further enhanced. Moreover, the results demonstrate that magnon–phonon entanglement and one‐way quantum steering exhibit robustness against temperature variations, which has significant implications for quantum information processing and storage.

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Section: Introductionmentioning

confidence: 99%

Preparation of Distant Quantum Entanglement and One‐way Quantum Steering in Hybrid Cavity‐Magnonics‐and‐Cavity‐Optomechanical Systems

Wan,

Lin,

Lin

et al. 2024

Annalen der Physik

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“…Due to its high degree of programmability, storage and parallelism, DNA has become one of the most ideal nanomaterials. It is often used to build a variety of nanodevices, such as nanorobots, molecular probes and molecular computations [4][5][6]. Among them, molecular computations have attracted a lot of attention as the foundation of biocomputer development [7][8][9].…”

Section: Introductionmentioning

confidence: 99%

Solution of state transfer matrix based on DNA strand displacement circuits

Ling,

Su,

Sun

et al. 2024

Phys. Scr.

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In recent years, DNA strand displacement (DSD) circuits have been developed in leaps and bounds. The high storage and parallelism of DNA give it an inherent advantage in the field of DNA computations. DSD is widely used in analog computations and neural network computations. However, there are few studies on solving state transfer matrix using DSD circuits. Aiming at the above problems, a scheme for solution of state transfer matrix based on DSD circuits is proposed. In this paper, the summation, subtraction, multiplication, division and exponential reaction modules are built by the DSD reactions. Based on the reaction modules, DNA chemical reaction networks of state transfer matrix are constructed. DSD circuits are built by cascading the DNA chemical reaction networks. The solution of the state transfer matrix is implemented through the DSD circuits. The Visual DSD is used to verify the practicality of DSD circuits. This scheme may provide a reference to analog computations based on DSD circuits.

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Generation of a squeezed Schrödinger cat state in an anisotropic ferromagnet-superconductor coupled system

He,

Xin,

Wang

et al. 2024

Phys. Rev. A

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Magnon-magnon entanglement generation between two remote interaction-free optomagnonic systems via optical Bell-state measurement

Cited by 4 publications

References 98 publications

Preparation of Distant Quantum Entanglement and One‐way Quantum Steering in Hybrid Cavity‐Magnonics‐and‐Cavity‐Optomechanical Systems

Preparation of Distant Quantum Entanglement and One‐way Quantum Steering in Hybrid Cavity‐Magnonics‐and‐Cavity‐Optomechanical Systems

Solution of state transfer matrix based on DNA strand displacement circuits

Generation of a squeezed Schrödinger cat state in an anisotropic ferromagnet-superconductor coupled system

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